Harvis: an interactive virtual reality tool for hemodynamic modification and simulation
Publication
, Journal Article
Shi, H; Ames, J; Randles, A
Published in: Journal of Computational Science
May 1, 2020
Cardiovascular disease (CVD) affects more than 90 million adults in the United States. In recent years, computational hemodynamic models have helped improve our understanding of CVD progression; however, such research workflows can be challenging and unintuitive to operate. We thus developed Harvis, a software platform with a flexible GUI for performing vascular simulations and a VR-capable interface for geometry modification and flow visualization. The aim of Harvis is to streamline and integrate this process for research use and future clinical applications. We also present a user study (n=26) that evaluates interaction with vascular modeling on 2D and VR displays.
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Published In
Journal of Computational Science
DOI
ISSN
1877-7503
Publication Date
May 1, 2020
Volume
43
Related Subject Headings
- 4901 Applied mathematics
- 4606 Distributed computing and systems software
- 4602 Artificial intelligence
- 0806 Information Systems
- 0802 Computation Theory and Mathematics
Citation
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MLA
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Shi, H., Ames, J., & Randles, A. (2020). Harvis: an interactive virtual reality tool for hemodynamic modification and simulation. Journal of Computational Science, 43. https://doi.org/10.1016/j.jocs.2020.101091
Shi, H., J. Ames, and A. Randles. “Harvis: an interactive virtual reality tool for hemodynamic modification and simulation.” Journal of Computational Science 43 (May 1, 2020). https://doi.org/10.1016/j.jocs.2020.101091.
Shi H, Ames J, Randles A. Harvis: an interactive virtual reality tool for hemodynamic modification and simulation. Journal of Computational Science. 2020 May 1;43.
Shi, H., et al. “Harvis: an interactive virtual reality tool for hemodynamic modification and simulation.” Journal of Computational Science, vol. 43, May 2020. Scopus, doi:10.1016/j.jocs.2020.101091.
Shi H, Ames J, Randles A. Harvis: an interactive virtual reality tool for hemodynamic modification and simulation. Journal of Computational Science. 2020 May 1;43.
Published In
Journal of Computational Science
DOI
ISSN
1877-7503
Publication Date
May 1, 2020
Volume
43
Related Subject Headings
- 4901 Applied mathematics
- 4606 Distributed computing and systems software
- 4602 Artificial intelligence
- 0806 Information Systems
- 0802 Computation Theory and Mathematics